SU1263645A1 - Device for magnetic treatment of liquid - Google Patents

Abstract

A DEVICE FOR MAGNETIC TREATMENT OF SHEETS, including a housing with a stator located in it, made with grooves, a rotor and flanges mounted on the ends with 8 5 -J bearing shields, inlet and outlet nozzles, characterized in that in order to increase the efficiency of magnetic treatment fluids, the stator is provided with uniformly installed grooves wedges made hollow of diamagnetic material, and the flanges with bearing shields are made with cavities in which the ends of the groove wedges are placed, while the polo ti connected to conductive supply and discharge pipes conductive. Phys.L.

Description

The invention relates to the industrial processing of liquids, in particular water, and can be used in the power system in order to prevent scale formation, as well as 5 in agriculture,

The purpose of the invention is to increase the efficiency of magnetic processing of liquids.

Haha. 1 shows a device for magnetic processing of a liquid, a longitudinal section; nafig, 2 - section AA in FIG. one.

A device for magnetic processing of liquid consists of a cylindrical housing 1 and bearing shields 2 and 3. Inside the housing 1 is placed a cylindrical magnetic circuit (stator) 4 with grooves on its inner surface, in which the winding 5 and its grooving wedges 6. are fixed. The latter are made with through holes (channels) in the axial direction. The winding 5 of the stator 4 is powered by a three-phase current source.

A rotor 7 with a short-circuited squirrel cage type winding is installed inside the stator 4 with a gap.

The beginning and ends of the wedges 6 are inserted without a gap into the 'holes of the flanges 8 and 9, which together with the bearing shields 2 and 3 form the inlet 10 and outlet 11 of the cavity, respectively.

A pump housing 12 is fixedly attached to the housing 1 by means of a bearing shield 3, the impeller 13 of which is fixedly mounted on the shaft 14 and is rotated.

The working cavity of the pump 12 through the hole 15 in its housing is in communication with the inlet cavity 10 of the device. In turn, the cavity 10 by means of the wedges 6 is in communication with the output cavity 11 of the device.

The device operates as follows.

When connecting the stator winding 5 to a three-phase alternating current source, a rotating magnetic field is created in the stator bore ¹⁵ (as in a conventional asynchronous electric machine). The magnetic field of the stator 4 during rotation intersects the short-circuited winding of the rotor 7 and directs it ^'20 electromotive force under the action of a current flowing in the winding. As a result of the interaction of the currents of the windings and the rotor, a rotating electromagnetic moment is created, which at ²⁵ drives the rotor 7 and the impeller 13 of the pump 12 into rotation.

Mounted on the shaft 14, the impeller 13 of the pump pumps liquid, which is from the pump through the hole. 15 ³⁰ enters the inlet cavity 10 and further into the axial channels of the wedges 6. Flowing along the channels of the wedges 6 in the direction normal to the magnetic field created by the stator winding, the fluid is magnetically processed and enters the cavity 11.

Claims (1)

DEVICE FOR MAGNETIC TREATMENT OF LIQUID, including core bearing shields, inlet and outlet pipes, characterized in that, in order to increase the efficiency of magnetic processing of the liquid, the stator is equipped with uniformly installed groove wedges made of hollow diamagnetic material, and flanges with bearing shields are made with cavities in which the ends of the pus with the stator located in it are located, the grooves are wedges, while the cavities are aligned with the grooves, the rotor and are connected to the inlet and outlet putt flanges with cuttings renewed at the ends.